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Origination, Evolutionary Radiation, and Extinction in the Modern World: The Story of Partulid Tree Snails

Published online by Cambridge University Press:  26 July 2017

Carole S. Hickman
Carole S. Hickman*
Affiliation:
Department of Integrative Biology and Museum of Paleontology, University of California, Berkeley, California 94720-4780 USA
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Extract

Charles Darwin's (1859) case for the fact of evolution was as crucial to his theory as was the mechanism he proposed. The idea of natural selection becomes interesting and compelling only in the context of all the great facts of natural history that it explains. Life on earth has changed. New forms have appeared, replacing forms that have ceased to exist. Origination and extinction are two of the great facts of natural history. They underlie the patterning of biological diversity. Case by case, these facts are explained more consistently, more simply, and more compellingly by the mechanisms of evolution than by any set of ad hoc explanations.

Type
Section 3: Evidence for Evolution
Information
The Paleontological Society Special Publications , Volume 11: Evolution: Investigating the Evidence, 2nd ed. , 2002 , pp. 211 - 226
Copyright
Copyright © 1999, 2002 by The Paleontological Society 

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References

Amadon, D. 1947. Ecology and evolution of some Hawaiian birds. Evolution, 1:6368.Google Scholar
Amadon, D. 1950. The Hawaiian honeycreepers (Aves, Drepanidae). Bulletin of the American Museum of Natural History, 95:151262.Google Scholar
Cain, A. J., and Sheppard, P. M. 1950. Selection in the polymorphic land snail Cepaea nemoralis (L.). Heredity, 4:475494.Google Scholar
Carlquist, S. 1965. Island Life. The Natural History Press, Garden City, New York.Google Scholar
Carlquist, S. 1974. Island Biology. Columbia University Press, New York.Google Scholar
Carlquist, S. 1980. Hawaii: A natural history. Pacific Tropical Botanical Garden, Lawai, Hawaii.Google Scholar
Carr, G. D. 1987. Beggar's ticks and tarweeds: masters of adaptive radiation. Trends in Ecology and Evolution, 2(7): 192195.CrossRefGoogle ScholarPubMed
Carr, G. D., and Kyhos, D. W. 1986. Adaptive radiation in the Hawaiian silversword alliance (Compositae-Madiinae), Part II: Cytogenetics of artificial and natural hybrids. Evolution, 40:959976.Google Scholar
Carson, H. L. 1983. Chromosomal sequences and interisland colonizations in Hawaiian Drosophila . Genetics, 103:465482.Google Scholar
Carson, H. L., Hardy, D. E., Spieth, H. T., and Stone, W. S. 1970. The evolutionary biology of the Hawaiian Drosophilidae, p. 437543. In Hecht, M. K. and Steere, W. C. (eds.), Essays in Evolution and Genetics in honor of Theodosius Dobzhansky. Appleton-Century-Crofts, New York.CrossRefGoogle Scholar
Clarke, B., and Murray, J. 1969. Ecological genetics and speciation in land snails of the genus Partula . Biological Journal of the Linnaean Society, 1:3142.Google Scholar
Clarke, B., Murray, J., and Johnson, M. S. 1984. The extinction of endemic species by a program of biological control. Pacific Science, 38:97104.Google Scholar
Clarke, B., Johnson, M. S., and Murray, J. 1996. Clines in the genetic distance between two species of island land snails: how ‘molecular leakage’ can mislead us about speciation. Philosophical Transactions of the Royal Society of London, Series B, 351:773784.Google Scholar
Cowie, R. H. 1992. Evolution and extinction of Partulidae, endemic Pacific island land snails. Philosophical Transactions of the Royal Society of London, Series B, 332:167191.Google Scholar
Crampton, H. E. 1925. Contemporaneous organic differentiation in the species of Partula living in Moorea, Society Islands. American Naturalist, 59:535.Google Scholar
Crampton, H. E. 1932. Studies on the variation, distribution, and evolution of the genus Partula: The species inhabiting Moorea. Carnegie Institution Washington Publication 410.Google Scholar
Cunningham, A. A., and Daszak, P. 1998. Extinction of a species of land snail due to infection with a microsporidian parasite. Conservation Biology, 12:11391141.Google Scholar
Darwin, C. 1859. On the origin of species by means of natural selection. Murray, London. 6th ed., 1872. Title changed to The Origin of Species.Google Scholar
Ferber, D. 1998. Bug vanquishes species. Science, 282:215.Google Scholar
Garrett, A. 1884. The terrestrial Mollusca inhabiting the Society Islands. Journal of the Academy of Natural Sciences of Philadelphia (Second Series), 9:17114.Google Scholar
Gould, S. J. 1991. Unenchanted evening. Natural History, September, 1991.Google Scholar
Gulick, J. T. 1905. Evolution, racial and habitudinal. Carnegie Institution, Washington, Publication 25.Google Scholar
Hadfield, M. G. 1986. Extinction in Hawaiian achatinelline snails. Malacologia, 27:6781.Google Scholar
Hadfield, M. G., and Miller, S. E. 1989. Demographic studies on Hawaii's endangered tree snails: Partulina proxima . Pacific Science, 43:116.Google Scholar
Hadfield, M. G., Miller, S. E., and Carwile, A. H. 1993. The decimation of endemic Hawaiian tree snails by alien predators. American Zoologist, 33:610622.CrossRefGoogle Scholar
Johnson, M. S., Clarke, B., and Murray, J. 1977. Genetic variation and reproductive isolation in Partula . Evolution, 31:116126.Google Scholar
Johnson, M. S., Clarke, B., and Murray, J. 1986a. Allozymic similarities among species of Partula on Moorea. Heredity, 56:319327.Google Scholar
Johnson, M. S., Clarke, B., and Murray, J. 1986b. An electrophoretic analysis of phylogeny and evolutionary rates in the genus Partula from the Society Islands. Proceedings of the Royal Society of London, Series B, 227:161177.Google Scholar
Johnson, M. S., Clarke, B., and Murray, J. 1987. Independence of genetic subdivision and variation for coil in Partula suturalis . Heredity, 58:307313.Google Scholar
Johnson, M. S., Clarke, B., and Murray, J. 1993. The ecological genetics and adaptive radiation of Partula on Moorea. Oxford Surveys in Evolutionary Biology, 9:168238.Google Scholar
Kay, E. A. 1994. The natural history of the Hawaiian Islands: Selected Readings II. University of Hawaii Press, Honolulu.Google Scholar
Kobayashi, S. R., and Hadfield, M. G. 1996. An experimental study of growth and reproduction in the Hawaiian tree snails Achatinella mustelina and Partulina redfieldii (Achatinellinae). Pacific Science, 50:339354.Google Scholar
Lack, D. 1947. Darwin's Finches. Cambridge University Press, Cambridge, England.Google Scholar
LaMotte, M. 1951. Rescherches sur la structure génétique des populations naturelles de Cepaea nemoralis L. Supplement to the Bulletin Biologique de France et de Belgique, 35.Google Scholar
Lipton, C. S., and Murray, J. 1979. Courtship of land snails of the genus Partula . Malacologia, 19:129146.Google Scholar
Mayer, A. G. 1902. Some species of Partula from Tahiti: A study in variation. Memoirs of the Museum of Comparative Zoology, Harvard, 26:117135.Google Scholar
Murray, E. 1993. The sinister snail. Endeavour (New Series), 17(2):7883.Google Scholar
Murray, J., and Clarke, B. 1966. The inheritance of polymorphic shell characters in Partula (Gastropoda). Genetics, 54:12611277.Google Scholar
Murray, J., and Clarke, B. 1968a. Inheritance of shell size in Partula . Heredity, 23:189198.Google Scholar
Murray, J., and Clarke, B. 1968b. Partial reproductive isolation in the genus Partula (Gastropoda) on Moorea. Evolution, 22:684698.Google Scholar
Murray, J., and Clarke, B. 1976. Supergenes in polymorphic land snails. Partula taeniata and Partula suturalis . Heredity, 37: 253282.Google Scholar
Murray, J., and Clarke, B. 1980. The genus Partula on Moorea: speciation in progress. Proceedings of the Royal Society of London, Series B, 211:83117.Google Scholar
Murray, J., Clarke, B., and Johnson, M. S. 1993. Adaptive radiation and community structure of Partula on Moorea. Proceedings of the Royal Society of London, Series B, 254:205211.Google Scholar
Murray, J., Johnson, M. S., and Clarke, B. 1982. Microhabitat differences among genetically similar species of Partula . Evolution, 36:316325.Google Scholar
Murray, J., Stine, O. C., and Johnson, M. S. 1991. The evolution of mitochondrial DNA in Partula . Heredity, 66:93104.Google Scholar
Murray, J., Murray, E., Johnson, M. S., and Clarke, B. 1988. The extinction of Partula on Moorea. Pacific Science, 42:150153.Google Scholar
Pearce-Kelly, P., Clarke, D., Walker, C., and Atkin, P. 1977. A conservation programme for the partulid tree snails of the Pacific region. Memoirs of the Museum of Victoria, 56(2):431433.Google Scholar
Pearce-Kelly, P., Mace, G. M., and Clarke, D. 1995. The release of captive bred snails (Partula taeniata) into a semi-natural environment. Biodiversity and Conservation, 4:645663.Google Scholar
Pilsbry, H. A. 1909–1910. Family Partulidae. Manual of Conchology (Second Series), 20:155336.Google Scholar
Provine, W. B. 1983. The development of Wright's theory of evolution: systematics, adaptation, and drift, p. 4370. In Grene, M. (ed.), Dimensions of Darwinism. Cambridge University Press, Cambridge.Google Scholar
Provine, W. B. 1986. Sewall Wright and evolutionary biology. University of Chicago Press, Chicago.Google Scholar
Quammen, D. 1997. The song of the dodo: island biogeography in an age of extinctions. Simon & Schuster, New York.Google Scholar
Schwabl, G., and Murray, J. 1970. Electrophoresis of proteins in natural populations of Partula (Gastropoda). Evolution, 24:424430.Google Scholar
Wright, S. 1930. Review of The genetical theory of natural selection, by R. A. Fisher. Journal of Heredity, 21:349356.Google Scholar
Wright, S. 1931. Evolution in Mendelian populations. Genetics, 16:97159.Google Scholar
Wright, S. 1932. The roles of mutation, inbreeding, crossbreeding and selection in evolution. Proceedings of the Sixth International Congress of genetics, 1:356366.Google Scholar